{"title":"Metode Termografi Inframerah untuk Deteksi Dini Pepper yellow leaf curl virus pada Tanaman Cabai","authors":"Triyani Dumaria, S. H. Hidayat, P. Hidayat","doi":"10.14692/jfi.19.1.1-10","DOIUrl":null,"url":null,"abstract":"Infrared Thermography for Early Detection of Pepper yellow leaf curl virus on Chili Plants Observations of plant pests and diseases are generally carried out by looking for visual symptoms for each disease target. Agricultural technology 4.0 began to be used for the development of plant disease detection methods. It was reported that there were differences in color and temperature between diseased and healthy plants which could be recorded by a thermal camera. This study aimed to determine the potential of the FLIR One Pro-IOS thermal camera to record differences in color and temperature between viral-infected and healthy chili plants. Chili plants in the greenhouse that were inoculated with Pepper yellow leaf curl virus (PYLCV) experienced an increase in temperature 3 days after inoculation (28.62 ℃) compared to plants that were not inoculated with PYLCV (27.32 ℃). Digital image recording of chili leaf samples from the field showed that plants infected by multiple viruses (Chilli veinal mottle virus, Pepper mottle virus and PYLCV) has higher temperature than those infected with a single virus. The lowest and highest mean temperatures were recorded in plant samples infected with PepMV (17.74 ℃) and mixed infected by PYLCV and ChiVMV (25.68 ℃). Digital images of virus-infected plants tend to show a predominance of bright yellow, while virus-free plants showed a predominance of dark purple. Further analysis confirmed higher digital numbers for diseased plant images than healthy plants. The thermography method has the potential to be an early detection method because it can detect viral infection before visual symptoms appear.","PeriodicalId":31619,"journal":{"name":"Jurnal Fitopatologi Indonesia","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2023-03-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Jurnal Fitopatologi Indonesia","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.14692/jfi.19.1.1-10","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 1
Abstract
Infrared Thermography for Early Detection of Pepper yellow leaf curl virus on Chili Plants Observations of plant pests and diseases are generally carried out by looking for visual symptoms for each disease target. Agricultural technology 4.0 began to be used for the development of plant disease detection methods. It was reported that there were differences in color and temperature between diseased and healthy plants which could be recorded by a thermal camera. This study aimed to determine the potential of the FLIR One Pro-IOS thermal camera to record differences in color and temperature between viral-infected and healthy chili plants. Chili plants in the greenhouse that were inoculated with Pepper yellow leaf curl virus (PYLCV) experienced an increase in temperature 3 days after inoculation (28.62 ℃) compared to plants that were not inoculated with PYLCV (27.32 ℃). Digital image recording of chili leaf samples from the field showed that plants infected by multiple viruses (Chilli veinal mottle virus, Pepper mottle virus and PYLCV) has higher temperature than those infected with a single virus. The lowest and highest mean temperatures were recorded in plant samples infected with PepMV (17.74 ℃) and mixed infected by PYLCV and ChiVMV (25.68 ℃). Digital images of virus-infected plants tend to show a predominance of bright yellow, while virus-free plants showed a predominance of dark purple. Further analysis confirmed higher digital numbers for diseased plant images than healthy plants. The thermography method has the potential to be an early detection method because it can detect viral infection before visual symptoms appear.
辣椒黄曲叶病毒早期检测的红外热像仪对植物病虫害的观察通常是通过寻找每个疾病目标的视觉症状来进行的。农业技术4.0开始被用于植物病害检测方法的开发。据报道,患病植物和健康植物在颜色和温度上存在差异,这可以通过热像仪记录下来。这项研究旨在确定FLIR One Pro IOS热像仪记录病毒感染和健康辣椒植物之间颜色和温度差异的潜力。与未接种PYLCV的辣椒(27.32℃)相比,接种PYLC病毒的辣椒在接种后第3天(28.62℃)的温度升高。对田间辣椒叶样本的数字图像记录显示,被多种病毒(辣椒脉斑驳病毒、辣椒斑驳病毒和PYLCV)感染的植物比被单一病毒感染的植物温度更高。感染PepMV(17.74℃)和混合感染PYLCV和ChiVMV(25.68℃)的植物样品的平均温度最低和最高。感染病毒的植物的数字图像往往以亮黄色为主,而无病毒的植物则以深紫色为主。进一步的分析证实,患病植物图像的数字数字高于健康植物。热成像方法有可能成为一种早期检测方法,因为它可以在视觉症状出现之前检测病毒感染。